Project description:RNA-seq analysis explores key genes during atrial fibrillation in db/db mice

Project description:Pitx2 is the homeobox gene located in proximity to the human 4q25 familial atrial fibrillation locus. Pitx2 haploinsufficient mice are prone to pacing induced atrial fibrillation indicating that reduced Pitx2 promotes an arrhythmogenic substrate within the atrium. Here, we inactivated Pitx2 in postnatal heart and discovered that unstressed adult Pitx2 mutant mice had sinus node dysfunction with impaired atrial conduction, an arrhythmia closely associated with atrial fibrillation. A genome-wide search for Pitx2 transcriptional targets using ChIP-sequencing and RNA expression profiling shows that Pitx2 represses target genes encoding cell junction proteins, ion channels, and critical transcriptional regulators many of which have been implicated in human atrial fibrillation by genome wide association studies. Our findings unveil a Pitx2 postnatal arrhythmogenic function, novel Pitx2 target genes relevant to atrial fibrillation, and reveal that Pitx2 stabilizes the intercalated disc in postnatal atrium. Genomic occupancy profiling of transcriptional factor Pitx2 in postnatal heart.

Project description:Gene expression profiles in the liver of 9-week-old wild type and diabetic db/db mice were measured by high-throughput sequencing to detect the differentially expressed genes Gene expression profiles of 9-week-old wild type and diabetic db/db mice were generated by high-throughput sequencing using Illumina Genome Analyzer

Project description:db/db mice Genome sequencing and assembly

Project description:db/db mice Genome sequencing and assembly

Project description:Small RNA profiles in the liver of 9-week old wild type and diabetic db/db mice were measured to detect the differentially expressed small RNAs. Small RNA profiles of 9-week old wild type (WT) and diabetic db/db mice were generated by deep sequencing using Illumina Genome Analyzer.

Project description:To identify the differential expression of circRNAs in cardiac fibrosis of db/db mice, db/db mice cardiac apex tissues were detected through microarray analysis at the age of 21 weeks. Compared with normal control mice, 77 circRNAs were up-regulated and 135 circRNAs were down-regulated in the chromosomes of db/db mice (fold changes ≥1.5, p-values ≤ 0.05). Moreover, Real-time qPCR was performed to validate the expression of circRNAs. In db/db mice, the top four up-regulated circRNAs, mmu_circRNA_28667, mmu_circRNA_32303, mmu_circRNA_20674, mmu_circRNA_25425 were verified. In db/db mice, the top four down-regulated circRNAs which were indexed by circBase database were verified. They were mmu_circRNA_014302, mmu_circRNA_001535, mmu_circRNA_005522 and mmu_circRNA_013422.

Project description:We reported a 28-day Intermittent fasting (IF) regimen improved cognitive deficits in db/db mice via a microbiota-metabolites-brain axis assessed by behavioral tests and multiple-omics analysis (transciptomics, 16S rRNA sequencing and metabolomics). Here we present transcriptomics data of mice hippocampus. A total of 310.85Gb clean RNA-SEQ reads of all mice with an average depth of 3.86x were obtained and were then mapped against the Mus musculus genome to obtain the gene expression FPKM values for each sample. We detected 27,094 genes (including 1,345 new predicted genes with no annotation) with FPKM value. Among them, 1,181 genes were found to be only highly expressed in db/db-IF mice compared to db/db and db/m mice, using Differentially Expressed Genes (DEG) analysis, most of which enriched in mitochondrial-related GO terms. Besides, IF strongly elevated genes related to KEGG pathway of oxidative phosphorylation (OXPHOS) via up-regulating mitochondrial located genes expression. In consistent with results from RNA-sequencing analysis, the qPCR analysis confirmed that mitochondrial and metabolic genes expressed were upregulated by IF in db/db mice. In conclusion, IF regimen significantly enhanced mitochondrial and energy metabolism related genes expressions in diabetic mice hippocampus.

Project description:Pitx2 is the homeobox gene located in proximity to the human 4q25 familial atrial fibrillation locus. Pitx2 haploinsufficient mice are prone to pacing induced atrial fibrillation indicating that reduced Pitx2 promotes an arrhythmogenic substrate within the atrium. Here, we inactivated Pitx2 in postnatal heart and discovered that unstressed adult Pitx2 mutant mice had sinus node dysfunction with impaired atrial conduction, an arrhythmia closely associated with atrial fibrillation. A genome-wide search for Pitx2 transcriptional targets using ChIP-sequencing and RNA expression profiling shows that Pitx2 represses target genes encoding cell junction proteins, ion channels, and critical transcriptional regulators many of which have been implicated in human atrial fibrillation by genome wide association studies. Our findings unveil a Pitx2 postnatal arrhythmogenic function, novel Pitx2 target genes relevant to atrial fibrillation, and reveal that Pitx2 stabilizes the intercalated disc in postnatal atrium.

Project description:To identify putative lncRNA changes in the livers of db/db mice and C57 mice, we isolated the liver tissues and carried out a microarray analysis. Here, we found significant changes of lncRNAs in the livers of db/db mice. Among them, abnormal expression of ultraconserved elements was noticed.